Nonvertebrate Chordates, Fishes, and Amphibians

1. Nonvertebrate Chordates, Fishes, and Amphibians • Many species of fish swim together in large groups called schools • This school of double-saddle butterflyfish lives in the tropical Pacific Ocean

2. Nonvertebrate Chordates, Fishes, and Amphibians

3.  The Chordates • At first glance, fishes, amphibians, reptiles, birds, and mammals appear to be very different from one another • Some have feathers; others have fins • Some fly; others swim or crawl • These variations are some of the characteristics that biologists use to separate these animals into different classes, yet all are members of the phylum Chordata

4. What Is a Chordate? • Members of the phylum Chordata are called chordates • To be classified as a chordate, an animal must have four key characteristics, although these characteristics need not be present during the entire life cycle • A chordate is an animal that has, for at least some stage of its life: • Dorsal, hollow nerve cord • Notochord • Pharyngeal pouches • Tail that extends beyond the anus

5. PHYLUM CHORDATA • Animal that at some stage of development has the following characteristics: • Notochord: firm, flexible dorsal rod of specialized cells • Dorsal Nerve Cord: hallow tube just above the notochord • Pharyngeal Pouches (gill slits): paired / small outpockets (openings) of the anterior gut (pharynx) • Water can enter the mouth and pass through the gill slits and out the body without going through the entire digestive system • In lower chordates evolve into gill slits, then gills • In higher chordates evolve into structures in the throat and ear (eustachian tube)

6. Chordate Characteristics  • All chordates share four characteristics: • Dorsal, hollow nerve cord • Notochord • Pharyngeal pouches • Tail that extends beyond the anus • Some chordates possess all these characteristics as adults; others possess them only as embryos

7. Chordate Characteristics 

8. What Is a Chordate? • The hollow nerve cord runs along the dorsal (back) part of the body. Nerves branch from this cord at regular intervals and connect to internal organs, muscles, and sense organs.

9. What Is a Chordate? • The notochordis a long supporting rod that runs through the body just below the nerve cord • Most chordates have a notochord only when they are embryos

10. What Is a Chordate? • Pharyngeal pouches are paired structures in the throat (pharynx) region • In some chordates—such as fishes and amphibians—slits develop that connect the pharyngeal pouches to the outside of the body • These slits may then develop gills that are used for gas exchange

11. What Is a Chordate? • At some point in their lives, all chordates have a tail that extends beyond the anus • The tail can contain bone and muscle and is used in swimming by many aquatic species

12. CHORDATE CHARACTERISTICS

13. Most Chordates Are Vertebrates • The diagram at right shows the current understanding of the phylogeny, or evolutionary relationships, of chordates • About 96 percent of all chordate species are placed in the subphylum Vertebrata and are called vertebrates • Most vertebrates have a strong supporting structure known as the vertebral column, or backbone • In vertebrates, the dorsal, hollow nerve cord is called the spinal cord • As a vertebrate embryo develops, the front end of the spinal cord grows into a brain • The backbone, which replaces the notochord in most developing vertebrates, is made of individual segments called vertebrae (singular: vertebra) • In addition to providing support, vertebrae enclose and protect the spinal cord

14. How Chordates Are Related • Although nonvertebrate chordates lack a vertebral column, they share a common ancestor with vertebrates • To which other vertebrate group are birds most closely related?

15. How Chordates Are Related

16. Most Chordates Are Vertebrates • A vertebrate's backbone is part of an endoskeleton, or internal skeleton • Like an arthropod's exoskeleton, a vertebrate's endoskeleton supports and protects the animal's body and gives muscles a place to attach • However, unlike an arthropod's exoskeleton, a vertebrate's skeleton grows as the animal grows and does not need to be shed periodically • In addition, whereas an arthropod's skeleton is made entirely of nonliving material, a vertebrate's skeleton contains living cells as well as nonliving material • The cells produce the nonliving material in the skeleton

17. Most Chordates Are Vertebrates • There are two subphyla of chordates that do not have backbones • The two groups of nonvertebrate chordates aretunicates and lancelets • Both are soft-bodied marine organisms • Like all chordates, these animals have a hollow nerve cord, a notochord, pharyngeal pouches, and a tail at some stage of their life cycle

18. Nonvertebrate Chordates • In some ways, studying nonvertebrate chordates is like using a time machine to investigate the ancestors of our own subphylum, Vertebrata • Similarities in anatomy and embryological development indicate that vertebrates and nonvertebrate chordates evolved from a common ancestor • Fossil evidence from the Cambrian Period places this divergence at more than 550 million years ago • Although they seem to be simple animals, tunicates and lancelets are relatives of ours—very distant ones

19. PHYLUM CHORDATA • Subphylum Urochordata: no backbone • Subphylum Cephalochordata: no backbone • Subphylum Vertebrata: backbone • 95 % of all chordates

20. SUBPHYLUM UROCHORDATA • 2,000 species • Marine • Hallow, barrel shaped • Commonly called tunicates (sea squirts) • Squirt out streams of water when touched • Larvae and some adults free swimming but most adults are sessile • Adapted for filter feeding • Notochord and dorsal nerve cord as larvae • Gill slits as larvae and adult

21. Tunicates • Filter-feeding tunicates (subphylum Urochordata) certainly do not look as if they are related to us • The figure at right shows the body structure of a tunicate larva and an adult • Observe that the larval form has all of the chordate characteristics • In contrast, adult tunicates, or sea squirts, have neither a notochord nor a tail

22. Tunicates (Sea Squirts) • Tunicates are one of two groups of nonvertebrate chordates • The tadpole-shaped tunicate larva (left) has all four chordate characteristics • When most tunicate larvae grow into adults, they lose their tails and attach to a solid surface • Adult tunicates (right) look nothing like the larvae, or even like other adult chordates • Both larvae and adults are filter feeders • The blue arrows show where water enters and leaves the tunicate’s body • Because of the stream of water they sometimes eject, tunicates are more commonly known as sea squirts

23. Tunicates (Sea Squirts)

24. SEA SQUIRT

25. SEA SQUIRT

26. TUNICATES

27. Lancelets • The small, fishlike creatures called lancelets form the subphylum Cephalochordata • Lancelets live on the sandy ocean bottom • You can see a lancelet's body structure in the figure at right • Observe that, unlike an adult tunicate, an adult lancelet has a definite head region that contains a mouth • The mouth opens into a long pharynx with up to 100 pairs of gill slits • As water passes through the pharynx, a sticky mucus catches food particles • The lancelet then swallows the mucus into the digestive tract • Lancelets use the pharynx for gas exchange • In addition, lancelets are thin enough to exchange gases through their body surface

28. Lancelets • Lancelets have a closed circulatory system • They do not have a true heart • Instead, the walls of the major blood vessels contract to push blood through the body • The fishlike motion of lancelets results from contracting muscles that are organized into V-shaped units • The muscle units are paired on either side of the body

29. SUBPHYLUM CEPHALOCHORDATES • 28 species • Marine • Retain notochord throughout life • Closest living relatives of the early animals from which all chordates evolved • Blade shaped: Amphioxus (lancelet) • Buried in sand • Poor swimming: poorly developed fins • Filter feeder • Retains all three chordate characteristics throughout life (notochord, dorsal nerve cord, gill slits)

30. Lancelet Body Structure • Lancelets are small nonvertebrate chordates that often live with their bodies half-buried in sand • Because lancelets do not have fins or legs, they can move only by contracting the paired muscles on their bodies • Which chordate characteristics do lancelets have?

31. Lancelet Body Structure

32. AMPHIOXUS

33. LANCELET

34. LANCELET

35. SUBPHYLUM VERTEBRATA • 41,000 species • Named for their vertebrae, the bones or cartilage that surround the dorsal nerve cord • In most, the notochord exist only in the embryo • Replaced by backbone (vertebral column: endoskeleton) which can support a larger body than an exoskeleton • Grows as the animal grows • Dorsal nerve cord develops into a spinal cord with a brain • Other characteristics: • Skull cranium: protects brain • Axial skeleton: backbone and skull • Paired limbs or fins attached by means of girdles of bones or cartilage • Girdles and limbs or fins make up the appendicular skeleton • Pectoral gridle: bones of the anterior limb • Pelvic gridle: bones of the posterior limb • Muscles attached to the skeleton allow movement • Organs organized into ten systems: skeletal, muscular, integumentary. Digestive, respiratory, circulatory, excretory, immune, nervous, and reproductive

36. SUBPHYLUM VERTEBRATA

39. SUBPHYLUM VERTEBRATA • Class Ostracodermi • Class Agnatha • Class Chondrichthyes • Class Osteichthyes • Class Amphibia • Class Reptilia • Class Aves • Class Mammalia

40. FISH EVOLUTION

41. What Is a Fish? • You might think that with such extreme variations in habitat, fishes would be difficult to characterize • However, describing a fish is a rather simple task • Fishes are aquatic vertebrates; most fishes have paired fins, scales, and gills • Fins are used for movement, scales for protection, and gills for exchanging gases • You can observe most of those characteristics in the figure

42. Fish Characteristics  • Fishes come in many shapes and sizes • Like most fishes, this African cichlid has paired fins, scales, and gills

43. Fish Characteristics 

44. What Is a Fish? • Fishes are so varied, however, that for almost every general statement there are exceptions • For example, some fishes, such as catfish, do not have scales • One reason for the enormous diversity among living fishes is that these chordates belong to very different classes • Thus, many fishes—sharks, lampreys, and perch, for example—are no more similar to one another than humans are to frogs!

45. Evolution of Fishes • Fishes were the first vertebrates to evolve • They did not arise directly from tunicates or lancelets, but fishes and nonvertebrate chordates probably did evolve from common invertebrate ancestors • During the course of their evolution, fishes underwent several important changes • The evolution of jaws and the evolution of paired fins were important developments during the rise of fishes

46. The First Fishes  • The earliest fishes to appear in the fossil record were odd-looking, jawless creatures whose bodies were armored with bony plates • They lived in the oceans during the late Cambrian Period, about 510 million years ago • Fishes kept this armored, jawless body plan for 100 million years

47. The Age of Fishes  • During the Ordovician and Silurian Periods, about 505 to 410 million years ago, fishes underwent a major adaptive radiation • The species to emerge from the radiation ruled the seas during the Devonian Period, which is often called the Age of Fishes • Some of these fishes were jawless species that had very little armor • These jawless fishes were the ancestors of modern hagfishes and lampreys • Others, were armored and ultimately became extinct at the end of the Devonian Period, about 360 million years ago

48. Ancient Jawless Fishes • Ancient jawless fishes swam in shallow seas during the early Devonian Period, about 400 million years ago • Lacking jaws, early jawless fishes were limited in their ability to feed and to defend themselves against predators • The evolution of paired fins, however, gave these fishes more control over their movement in the water

49. Ancient Jawless Fishes

50. CLASS OSTRACODERMI • 540 million years ago • Extinct • Jawless primitive vertebrate • Marine • Large bony protective plates evolved into protective scales